Download Laboratory Manual for Pulse-Width Modulated DC-DC Power Converters PDF
Laboratory Manual for Pulse-Width Modulated DC-DC Power Converters PDF
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About Of The Book :
The Laboratory Manual for Pulse-Width Modulated DC–DC Power Converters is intended to aid undergraduate and graduate students of electrical engineering, practicing engineers, scientists, and circuit designers to have a grasp on designing and simulating a variety of fundamental and advanced power electronic circuits. The manual enables users to get accustomed to different simulation tools such as MATLAB®, Synopsys SABER®, LTSpice®, PLECS®, or any other Spice-based circuit simulation platforms. The approach presented in this manual will enhance a student’s understanding of different power electronic converters and also gain knowledge in great depth on performing circuit simulations; a characteristic needed for a career in electrical engineering. This manual is supplementary material to the successful edition of the textbook Pulsewidth Modulated DC–DC Power Converters, Second Edition, authored by Prof. Marian K. Kazimierczuk. The lab manual complements the content of the textbook and the combination of the two is a one-stop arrangement for students and instructors to gain the most about power electronic circuits and their simulation. This book features the following attributes: i. Unique in the market of textbooks for power electronics. ii. Can be adopted as supplementary material for any commercially available textbooks on power electronics as well as class notes. iii. Can be used for distance-learning power electronic courses or e-learning. iv. The software-oriented approach makes it convenient for students to have take-home assignments. v. Simple and easy-to-understand procedure set. vi. Provides a quick overview of various power converters and components. The purpose of the Laboratory Manual for Pulse-Width Modulated DC–DC Power Converters is to provide a comprehensive instruction set for the following: a. To design and simulate various topologies of power electronic DC–DC converters such as boost and boost-derived, buck and buck-derived, flyback, forward, half-bridge, and full bridge converter topologies, operating in continuous-conduction mode or discontinuous conduction mode. b. To simulate the small-signal models of the power electronic circuits and to understand the different small-signal characteristics of boost and buck converters operating in continuous conduction mode.
Contents Of The Book :
Part I OPEN-LOOP PULSE-WIDTH MODULATED DC–DC CONVERTERS—STEADY-STATE AND PERFORMANCE
ANALYSIS AND SIMULATION OF CONVERTER TOPOLOGIES
1 Boost DC–DC Converter in CCM—Steady-State Simulation 3
2 Efficiency and DC Voltage Transfer Function of PWM Boost DC–DC Converter in CCM 7
3 Boost DC–DC Converter in DCM—Steady-State Simulation 11
4 Efficiency and DC Voltage Transfer Function of PWM Boost DC–DC Converter in DCM 15
5 Open-Loop Boost AC–DC Power Factor Corrector—Steady-State Simulation 19
6 Buck DC–DC Converter in CCM—Steady-State Simulation 23
7 Efficiency and DC Voltage Transfer Function of PWM Buck DC–DC Converter in CCM 27
8 Buck DC–DC Converter in DCM—Steady-State Simulation 31
9 Efficiency and DC Voltage Transfer Function of PWM Buck DC–DC Converter in DCM 35
10 High-Side Gate-Drive Circuit for Buck DC–DC Converter 39
11 Quadratic Buck DC–DC Converter in CCM—Steady-State Simulation 41
12 Buck–Boost DC–DC Converter in CCM—Steady-State Simulation 45
13 Efficiency and DC Voltage Transfer Function of PWM Buck–Boost DC–DC Converter in CCM 49
14 Buck–Boost DC–DC Converter in DCM—Steady-State Simulation 53
15 Efficiency and DC Voltage Transfer Function of PWM Buck–Boost DC–DC Converter in DCM 57
16 Flyback DC–DC Converter in CCM—Steady-State Simulation 61
17 Efficiency and DC Voltage Transfer Function of PWM Flyback DC–DC Converters in CCM 65
18 Multiple-Output Flyback DC–DC Converter in CCM 69
19 Flyback DC–DC Converter in DCM—Steady-State Simulation 73
20 Efficiency and DC Voltage Transfer Function of PWM Flyback DC–DC Converter in DCM 77
21 Forward DC–DC Converter in CCM—Steady-State Simulation 81
22 Efficiency and DC Voltage Transfer Function of PWM Forward DC–DC Converter in CCM 85
23 Forward DC–DC Converter in DCM—Steady-State Simulation 89
24 Efficiency and DC Voltage Transfer Function of PWM Forward DC–DC Converter in DCM 93
25 Half-Bridge DC–DC Converter in CCM—Steady-State Simulation 97
26 Efficiency and DC Voltage Transfer Function of PWM Half-Bridge DC–DC Converter in CCM 101
27 Full-Bridge DC–DC Converter in CCM—Steady-State Simulation 105
28 Efficiency and DC Voltage Transfer Function of PWM Full-Bridge DC–DC Converters in CCM 109
Part II CLOSED-LOOP PULSE-WIDTH MODULATED DC–DC CONVERTERS—TRANSIENT ANALYSIS, SMALL-SIGNAL
MODELING, AND CONTROL
29 Design of the Pulse-Width Modulator and the PWM Boost DC–DC Converter in CCM 115
30 Dynamic Analysis of the Open-Loop PWM Boost DC–DC Converter in CCM for Step Change in the Input Voltage, Load Resistance, and Duty Cycle 119
31 Open-Loop Control-to-Output Voltage Transfer Function of the Boost Converter in CCM 123
32 Root Locus and 3D Plot of the Control-to-Output Voltage Transfer Function 129
33 Open-Loop Input-to-Output Voltage Transfer Function of the Boost Converter in CCM 133
34 Open-Loop Small-Signal Input and Output Impedances of the Boost Converter in CCM 137
35 Feedforward Control of the Boost DC–DC Converter in CCM 141
36 P, PI, and PID Controller Design 145
37 P, PI, and PID Controllers: Bode and Transient Analysis 149
38 Transfer Functions of the Pulse-Width Modulator, Boost Converter Power Stage, and Feedback Network 153
39 Closed-Loop Control-to-Output Voltage Transfer Function with Unity-Gain Control 157
40 Simulation of the Closed-Loop Boost Converter with Proportional Control 161
41 Voltage-Mode Control of Boost DC–DC Converter with Integral-Double-Lead Controller 165
42 Control-to-Output Voltage Transfer Function of the Open-Loop Buck DC–DC Converter 169
43 Voltage-Mode Control of Buck DC–DC Converter 173
44 Feedforward Control of the Buck DC–DC Converter in CCM 179
Part III SEMICONDUCTOR MATERIALS AND POWER DEVICES
45 Temperature Dependence of Si and SiC Semiconductor Materials 187
46 Dynamic Characteristics of the PN Junction Diode 191
47 Characteristics of the Silicon and Silicon-Carbide PN Junction Diodes 195
48 Analysis of the Output and Switching Characteristics of Power MOSFETs 199
49 Short-Channel Effects in MOSFETs 201
50 Gallium-Nitride Semiconductor: Material Properties 205
APPENDICES 209
A Design Equations for Continuous-Conduction Mode 211
B Design Equations for Discontinuous-Conduction Mode 215
C Simulation Tools 219
D MOSFET Parameters 231
E Diode Parameters 233
F Selected MOSFETs Spice Models 235
G Selected Diodes Spice Models 237
H Physical Constants 239
I Format of Lab Report 241
Information Of The Book :
Title: Laboratory Manual for Pulse-Width Modulated DC-DC Power Converters PDF
Size: 4,16 Mb
Pages: 268
Year : 2015
Format: PDF
Author: M. K. Kazimierczuk & A. Ayachit